ToxMetrics.com, LLC, Midland, MI, USA.
Newcells Biotech, Newcastle Upon Tyne, UK.
Regul Toxicol Pharmacol. 2020 Oct;116:104714. doi: 10.1016/j.yrtph.2020.104714. Epub 2020 Jul 5.
A review of pharmacokinetic and metabolism studies show that triclopyr is well absorbed from the oral route in numerous species (≥80%), primarily as parent compound. Absorption is quite rapid in rats, dogs and human volunteers. Plasma or blood clearance is also rapid (t 3-9 h), except for dog (12-96 h). Systemic exposure is not dose-proportional: in the rat above 20 mg/kg (dietary) or between 3 and 60 mg/kg (gavage), or in dogs above 5 mg/kg, with systemic exposure in human more comparable to rat than dog. Triclopyr is highly bound to protein in rat, dog and human plasma (≥97% at or below 7 μg/mL), indicating that species differences in systemic exposure are not due to differences in the free fraction of this test material in plasma. An in vitro flux study in renal proximal tubule cells showed that net renal transport of triclopyr is in the direction of secretion in rat and human donors, while reabsorption predominated in the dog, possibly via organic anion transporters such as OAT1/3. These results fit well into the framework of utilizing metabolism and toxicokinetics across species and exposure levels to allow for toxicity testing in the most relevant species as well as at proper dose levels.
一项关于药代动力学和代谢的研究综述表明,三氯吡氧乙酸在许多物种(≥80%)中经口服途径被很好地吸收,主要以母体化合物的形式被吸收。在大鼠、狗和人类志愿者中,吸收非常迅速。血浆或血液清除率也很快(t 3-9 h),狗除外(12-96 h)。全身暴露与剂量不成比例:在大鼠中(饮食)或在 20 毫克/千克以上或在 3 至 60 毫克/千克(灌胃)之间,或在狗中超过 5 毫克/千克时,人类的全身暴露与大鼠更相似,而与狗不同。三氯吡氧乙酸在大鼠、狗和人血浆中与蛋白质高度结合(≥7μg/mL 时为 97%以上),这表明全身暴露的种间差异不是由于血浆中这种试验物质的游离分数不同所致。在肾近端小管细胞的体外通量研究中,三氯吡氧乙酸的净肾转运在大鼠和人类供体中是向分泌方向的,而在狗中则以重吸收为主,可能是通过有机阴离子转运体(如 OAT1/3)。这些结果很好地符合了利用代谢和毒代动力学来跨物种和暴露水平进行毒性测试的框架,以便在最相关的物种和适当的剂量水平上进行毒性测试。
